Logo do repositório
 
Miniatura indisponível
Publicação

The Rio Grande Rise: current knowledge and future frontiers for deep-sea science, mineral resources and governance

Utilize este identificador para referenciar este registo.
Nome:Descrição:Tamanho:Formato: 
minerals-16-00418-v2.pdf45.64 MBAdobe PDF Ver/Abrir

Orientador(es)

Resumo(s)

The Rio Grande Rise (RGR) is the largest oceanic plateau in the South Atlantic and represents a key natural laboratory for understanding oceanic plateau formation, deep-sea circulation, ecosystem functioning, and ferromanganese crust development. This study presents a critical synthesis of current scientific knowledge on the RGR, integrating geological, geophysical, oceanographic, biological, and geochemical evidence published over the last two decades. Geophysical data reveal a complex tectono-magmatic evolution involving Late Cretaceous plume-related volcanism, crustal thickening, rifting, and subsequent subsidence. The structural framework of the plateau is dominated by the Cruzeiro do Sul Rift, which plays a central role in controlling sedimentation, magmatism, and seawater circulation. Oceanographic studies demonstrate that the interaction between the southern branch of the South Equatorial Current and the complex topography of the RGR generates intense internal tides and bottom currents, strongly influencing sediment transport and benthic habitats. Biological investigations indicate that the RGR hosts diverse deep-sea communities, including sponge grounds, cold-water corals, and associated fauna, whose distribution is tightly linked to geomorphology and hydrodynamics. Ferromanganese crusts occurring on the plateau preserve valuable geochemical records of oceanographic and redox conditions, although their spatial distribution, thickness, and metal budgets remain incompletely constrained. Despite major advances, significant knowledge gaps persist regarding crustal structure, sedimentary evolution, ecosystem functioning, and mineral formation processes. This review highlights these uncertainties and outlines research priorities necessary to improve understanding of oceanic plateaus and deep-sea systems in the South Atlantic.

Descrição

Palavras-chave

Rio Grande Rise Deep-sea mining Ferromanganese crusts Ocean governance South Atlantic Critical minerals Biodiversity conservation Continental shelf

Contexto Educativo

Citação

Projetos de investigação

Unidades organizacionais

Fascículo

Editora

MDPI

Licença CC

Métricas Alternativas